Decentralized control for urban drainage systems via population dynamics : Bogota case study
Document typeConference report
PublisherInstitute of Electrical and Electronics Engineers (IEEE)
Rights accessOpen Access
ProjectEFFINET - Efficient Integrated Real-time Monitoring and Control of Drinking Water Networks (EC-FP7-318556)
Control of Urban Drainage Systems (UDS) is studied for cases in which the distribution of run–off through the channels of a system is inefficient, i.e. when the capacity of some structures is not used optimally. In this paper, a decentralized population-dynamics-based control for UDS is presented, particularly using the replicator and projection dynamics. For the design, a methodology to make a partitioning of the system is introduced, and the design of a population–dynamics–based control per each partition is proposed. Moreover, a stability analysis of the closed–loop system is made by using passivity theory. Finally, simulation results show the proposed approach performance in a segment of the Bogota stormwater UDS case study.
CitationBarreiro, J., Obando, G., Riaño, G., Quijano, N., Ocampo-Martinez, C.A. Decentralized control for urban drainage systems via population dynamics : Bogota case study. A: European Control Conference. "Proceedings of the 2015 European Control Conference,". Linz: Institute of Electrical and Electronics Engineers (IEEE), 2015, p. 2426-2431.
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